Biotechnical and Soil Bioengineering Slope Stabilization: A Practical Guide for Erosion ControlThe first comprehensive, practical guide to the selection,construction, and installation of soil bioengineering andbiotechnical slope protection Here is the ultimate guide to physically attractive,environmentally compatible, and cost-effective methods ofprotecting slopes from erosion and mass wasting. Lavishlyillustrated with more than 150 photographs and supplemented withscores of charts and tables, this book covers the entire subjectfrom general principles and background on the nature of soilerosion and mass movement to detailed information on rootstrengths, treatment selection, unit costs, critical tractivestresses, methods for harvesting and handling live cuttings, andmore. Four illustrated case studies, each addressing a different set ofproblems and solutions, demonstrate both the application ofparticular technologies and the site investigation, planning,scheduling, and organization required to complete these projectssuccessfully. This unique reference handbook * Reviews the horticultural and engineering underpinnings forbiotechnical and soil engineering treatments * Documents and explains the role of woody plants in stabilizingslopes against both surficial erosion and mass movement * Provides details on a broad range of soil bioengineering methods,including live staking, live fascines, brushlayering, live cribwalls, branchpacking, and live slope gratings * Describes various biotechnical methods and materials, includingthe incorporation of vegetation in erosion control blankets,flexible mats, cellular revetments (geocells), rock armor (riprap), and gabion and open-front crib walls * Summarizes the findings of the National ScienceFoundation-sponsored workshop to assess the state of the art anddetermine research needs For practicing professionals, researchers, and students ingeotechnical engineering, geology, soil science, forestry andforest engineering, landscape architecture, environmentalhorticulture, and restoration ecology, this book offers thorough,up-to-date coverage that is not available from any other singlesource. |
Contents
Introduction to Biotechnical Stabilization | 1 |
Surficial Erosion and Mass Movement | 19 |
Role of Vegetation in the Stability of Slopes | 54 |
Root Decay and Strength Loss | 76 |
Principles of Biotechnical and Soil Bioengineering | 106 |
Reinforced Grass | 112 |
StructuralMechanical Components of Biotechnical | 130 |
Vegetative Components and Considerations | 178 |
Techniques and Methods | 214 |
Guidelines for Vegetative | 279 |
Biotechnical Ground Covers | 307 |
New Developments and Future Directions in Biotechnical | 337 |
Soil Bioengineering Plant Species | 360 |
Nomenclature and Symbols | 366 |
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Common terms and phrases
anchored angle armor articulated block backfill Biotechnical stabilization branchpacking brushlayers buttress channel cohesion Common concrete construction cribfill cut slopes depth drain drainage dune effective Engineering Equation erodibility erosion control establishment fabric face factor of safety feet fill slopes flow friction gabion geogrids geosynthetic Geotechnical Engineering geotextile grass ground cover ground surface gully height hydraulic installation layer live branch live cuttings live fascines live stakes mass movement mass stability mass wasting mats Medium Medium methods moisture mulch plant material rainfall resistance retaining structures retaining wall revegetation revetment riprap rock breast walls root area ratio runoff Salix sand sediment seepage shallow shear strength shear strength increase shear stress shown in Figure shrub sliding slope failures slope grating slope protection slope stability soil bioengineering soil loss species steep streambank surficial erosion Table tensile strength timber trees trench vegetated geogrids velocity vertical willow woody vegetation